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2001 10 25 14:34:47 harff NMMTL_2DLF

Node = MRL_TFI_bem:w10t2.5
Number of Signal Lines =   5
Number of Ground Lines, including top ground plane =   1
Coupling Length =   0.04000 meters
Rise Time =   400.0000 picoseconds
Contour (conductor) segments [cseg] = 400
Ground Plane/Dielectric segments [dseg] = 800
Note: minimum frequency for surface current assumptions is 108076 MHz.
Mutual and Self Electrostatic Induction:
B(Active Signal , Passive Signal) Farads/Meter
B( signal1 , signal1 )=   1.2776913e-10
B( signal1 , signal2 )=  -6.9528905e-12
B( signal1 , signal3 )=  -7.0803274e-14
B( signal1 , signal4 )=  -1.0538692e-15
B( signal1 , signal5 )=  -1.4212334e-17
B( signal2 , signal1 )=  -6.9528463e-12
B( signal2 , signal2 )=   1.2832821e-10
B( signal2 , signal3 )=  -6.9473836e-12
B( signal2 , signal4 )=  -7.0726580e-14
B( signal2 , signal5 )=  -1.0493614e-15
B( signal3 , signal1 )=  -7.0785263e-14
B( signal3 , signal2 )=  -6.9472839e-12
B( signal3 , signal3 )=   1.2832781e-10
B( signal3 , signal4 )=  -6.9473260e-12
B( signal3 , signal5 )=  -7.0808058e-14
B( signal4 , signal1 )=  -1.0389256e-15
B( signal4 , signal2 )=  -7.0721132e-14
B( signal4 , signal3 )=  -6.9472197e-12
B( signal4 , signal4 )=   1.2832678e-10
B( signal4 , signal5 )=  -6.9527587e-12
B( signal5 , signal1 )=  -1.1432989e-17
B( signal5 , signal2 )=  -1.0443058e-15
B( signal5 , signal3 )=  -7.0797785e-14
B( signal5 , signal4 )=  -6.9527275e-12
B( signal5 , signal5 )=   1.2776823e-10

Mutual and Self Inductance:
L(Active Signal , Passive Signal) Henrys/Meter
L( signal1 , signal1 )=   2.7910551e-07
L( signal1 , signal2 )=   1.5175244e-08
L( signal1 , signal3 )=   9.7901010e-10
L( signal1 , signal4 )=   6.3883489e-11
L( signal1 , signal5 )=   4.1745747e-12
L( signal2 , signal1 )=   1.5175056e-08
L( signal2 , signal2 )=   2.7871235e-07
L( signal2 , signal3 )=   1.5150217e-08
L( signal2 , signal4 )=   9.7739516e-10
L( signal2 , signal5 )=   6.3873594e-11
L( signal3 , signal1 )=   9.7894737e-10
L( signal3 , signal2 )=   1.5150004e-08
L( signal3 , signal3 )=   2.7871042e-07
L( signal3 , signal4 )=   1.5150160e-08
L( signal3 , signal5 )=   9.7900688e-10
L( signal4 , signal1 )=   6.3845700e-11
L( signal4 , signal2 )=   9.7735886e-10
L( signal4 , signal3 )=   1.5149961e-08
L( signal4 , signal4 )=   2.7871380e-07
L( signal4 , signal5 )=   1.5175116e-08
L( signal5 , signal1 )=   4.1657120e-12
L( signal5 , signal2 )=   6.3858620e-11
L( signal5 , signal3 )=   9.7896835e-10
L( signal5 , signal4 )=   1.5175027e-08
L( signal5 , signal5 )=   2.7910784e-07

Asymmetry Ratios:

  Asymmetry ratio for inductance matrix:
     0.212302% (max), 0.031350% (average)

**********
  Asymmetry ratio for electrostatic induction matrix:
     19.555872% (max), 2.150732% (average).
  (Note values greater than 1% are a probable indication of too few elements.
  Try adjusting CSEG and DSEG attributes.)
**********

Characteristic Impedance (Ohms):
For Signal Line signal1= 46.7381
For Signal Line signal2= 46.6033
For Signal Line signal3= 46.6033
For Signal Line signal4= 46.6037
For Signal Line signal5= 46.7385

Effective Dielectric Constant:
For Signal Line signal1= 3.19999
For Signal Line signal2= 3.20002
For Signal Line signal3= 3.20001
For Signal Line signal4= 3.20001
For Signal Line signal5= 3.2

Propagation Velocity (meters/second):
For Signal Line signal1=   1.6758926e+08
For Signal Line signal2=   1.6758846e+08
For Signal Line signal3=   1.6758886e+08
For Signal Line signal4=   1.6758896e+08
For Signal Line signal5=   1.6758915e+08

Propagation Delay (seconds/meter):
For Signal Line signal1=   5.9669693e-09
For Signal Line signal2=   5.9669978e-09
For Signal Line signal3=   5.9669836e-09
For Signal Line signal4=   5.9669802e-09
For Signal Line signal5=   5.9669733e-09

Rdc:
Rdc(Active Signal , Passive Signal) Ohms/Meter
Rdc( signal1 , signal1 )=   1.1228073e+03
Rdc( signal1 , signal2 )=   0.0000000e+00
Rdc( signal1 , signal3 )=   0.0000000e+00
Rdc( signal1 , signal4 )=   0.0000000e+00
Rdc( signal1 , signal5 )=   0.0000000e+00
Rdc( signal2 , signal1 )=   0.0000000e+00
Rdc( signal2 , signal2 )=   1.1228036e+03
Rdc( signal2 , signal3 )=   0.0000000e+00
Rdc( signal2 , signal4 )=   0.0000000e+00
Rdc( signal2 , signal5 )=   0.0000000e+00
Rdc( signal3 , signal1 )=   0.0000000e+00
Rdc( signal3 , signal2 )=   0.0000000e+00
Rdc( signal3 , signal3 )=   1.1228065e+03
Rdc( signal3 , signal4 )=   0.0000000e+00
Rdc( signal3 , signal5 )=   0.0000000e+00
Rdc( signal4 , signal1 )=   0.0000000e+00
Rdc( signal4 , signal2 )=   0.0000000e+00
Rdc( signal4 , signal3 )=   0.0000000e+00
Rdc( signal4 , signal4 )=   1.1228085e+03
Rdc( signal4 , signal5 )=   0.0000000e+00
Rdc( signal5 , signal1 )=   0.0000000e+00
Rdc( signal5 , signal2 )=   0.0000000e+00
Rdc( signal5 , signal3 )=   0.0000000e+00
Rdc( signal5 , signal4 )=   0.0000000e+00
Rdc( signal5 , signal5 )=   1.1228112e+03

Far-End (Forward) Cross Talk:
FXT(Active Signal, Passive Signal)
FXT( signal1 , signal2 )= -3.28865e-05 =   -89.65965 dB
FXT( signal1 , signal3 )= -8.83603e-04 =   -61.07485 dB
FXT( signal1 , signal4 )= -6.59756e-05 =   -83.61234 dB
FXT( signal1 , signal5 )= -4.42970e-06 =  -107.07251 dB
FXT( signal2 , signal3 )= -6.59028e-05 =   -83.62193 dB
FXT( signal2 , signal4 )= -8.83796e-04 =   -61.07296 dB
FXT( signal2 , signal5 )= -6.59769e-05 =   -83.61217 dB
FXT( signal3 , signal4 )= -6.58748e-05 =   -83.62561 dB
FXT( signal3 , signal5 )= -8.83592e-04 =   -61.07497 dB
FXT( signal4 , signal5 )= -3.28753e-05 =   -89.66260 dB

Near-End (Backward) Cross Talk:
BXT(Active Signal, Passive Signal)
BXT( signal1 , signal2 )= 2.71768e-02 =   -31.31603 dB
BXT( signal1 , signal3 )= 1.01568e-03 =   -59.86483 dB
BXT( signal1 , signal4 )= 5.92563e-05 =   -84.54530 dB
BXT( signal1 , signal5 )= 3.75366e-06 =  -108.51090 dB
BXT( signal2 , signal3 )= 2.71236e-02 =   -31.33307 dB
BXT( signal2 , signal4 )= 1.01445e-03 =   -59.87542 dB
BXT( signal2 , signal5 )= 5.92783e-05 =   -84.54208 dB
BXT( signal3 , signal4 )= 2.71234e-02 =   -31.33311 dB
BXT( signal3 , signal5 )= 1.01572e-03 =   -59.86449 dB
BXT( signal4 , signal5 )= 2.71766e-02 =   -31.31610 dB

NOTE: Cross talk results assume there are no reflections.
